System for mixing a liquid spray into a gaseous flow and exhaust aftertreatment device comprising same

The invention claimed is: 1. An exhaust aftertreatment system disposed within a conduit having a longitudinal axis, the exhaust aftertreatment system comprising: a divider baffle configured to be disposed within the conduit to separate the conduit into an upstream section and a downstream section, the divider baffle defining an aperture leading between the upstream and downstream sections; a swirl duct disposed in at least the upstream section, the swirl duct leading to the aperture at the divider baffle, the swirl duct defining a duct axis extending through the aperture; an impact surface disposed in the downstream section, the impact surface extending downstream from the divider baffle and being at least partially offset inward from an inner surface of the conduit by an air gap, the impact surface intersecting a longitudinal axis of the swirl duct; and a swirl-member disposed in the downstream section, the swirl member offset downstream from the duct axis, the swirl member configured to increase airflow turbulence, the air gap extending along the longitudinal axis of the conduit past the swirl member. 2. The exhaust aftertreatment system of claim 1 , wherein the impact surface defines a plurality of openings leading to the air gap, wherein the air gap is closed at a location downstream of the plurality of openings. 3. The exhaust aftertreatment system of claim 1 , wherein the impact surface extends in parallel with the longitudinal axis of the conduit. 4. The exhaust aftertreatment system of claim 1 , wherein the swirl duct extends through the aperture defined in the divider baffle and partially into the downstream section. 5. The exhaust aftertreatment system of claim 2 , wherein the plurality of openings defined in the impact surface are disposed in alignment with the aperture defined through the divider baffle. 6. The exhaust aftertreatment system of claim 1 , wherein the swirl duct includes louvered openings. 7. The exhaust aftertreatment system of claim 6 , wherein the swirl duct has a perforated region offset from the louvered openings, the swirl duct defining perforations at the perforated region. 8. The exhaust aftertreatment system of claim 7 , wherein the perforations of the perforated region are divided into two groups separated by non-perforated sections, wherein the non-perforated sections are oppositely disposed from each other. 9. The exhaust aftertreatment system of claim 1 , further comprising a doser mounting location disposed at a first end of the swirl duct, wherein a second end of the swirl duct is located at the aperture through the divider baffle, the second end of the swirl duct being opposite the first end. 10. The exhaust aftertreatment system of claim 9 , further comprising a spray path protection zone disposed at the swirl duct, the spray path protection zone being positioned to align with a nozzle of a doser mounted at the doser mounting location, the spray path protection zone being configured to inhibit airflow entering the swirl duct. 11. The exhaust aftertreatment system of claim 10 , wherein the spray path protection zone is defined by a plurality of perforations. 12. The exhaust aftertreatment system of claim 11 , wherein the perforations are defined by a perforated conduit disposed within the swirl duct. 13. The exhaust aftertreatment system of claim 11 , wherein the perforations are defined by the swirl duct. 14. The exhaust aftertreatment system of claim 10 , wherein the spray path protection zone is defined by a first plurality of louvers disposed at the swirl duct, the first plurality of louvers being offset along the swirl duct from a second plurality of louvers. 15. The exhaust aftertreatment system of claim 1 , further comprising a restrictor arrangement disposed downstream of the divider baffle. 16. The exhaust aftertreatment system of claim 15 , wherein the restrictor arrangement is spaced downstream from the impact surface. 17. The exhaust aftertreatment system of claim 15 , wherein the swirl member is disposed between the divider baffle and the restrictor arrangement. 18. The exhaust aftertreatment system of claim 1 , wherein the impact surface is formed by an annular sleeve extending downstream from the divider baffle. 19. The exhaust aftertreatment system of claim 1 , further comprising a substrate disposed in the downstream section and downstream of the impact surface. 20. The exhaust aftertreatment system of claim 19 , further comprising: a first gas flow pathway extending through the swirl duct, through the aperture of the divider baffle, over the impact surface, towards the substrate; and a second gas flow pathway along the air gap and through openings defined in the impact surface. 21. The exhaust aftertreatment system of claim 1 , wherein the swirl member includes louvers. 22. An exhaust aftertreatment system disposed within a conduit having a longitudinal axis, the exhaust aftertreatment system comprising: a divider baffle configured to be disposed within the conduit to separate the conduit into an upstream section and a downstream section, the divider baffle defining an aperture leading between the upstream and downstream sections; a swirl duct disposed in at least the upstream section, the swirl duct leading to the aperture at the divider baffle; an impact surface disposed in the downstream section, the impact surface extending downstream from the divider baffle and being offset radially inward from an inner surface of the conduit by a gap, the impact surface intersecting a longitudinal axis of the swirl duct, the impact surface defining a plurality of openings leading to the gap; a restrictor arrangement disposed downstream of the divider baffle, and a swirl plate disposed between the divider baffle and the restrictor arrangement.